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Density deficit of Earth’s core revealed by a multimegabar primary pressure scale

Daijo Ikuta, Eiji Ohtani, Hiroshi Fukui, Tatsuya Sakamaki, R. Heid, Daisuke Ishikawa, Alfred Q. R. Baron

2023Science Advances11 citationsDOIOpen Access PDF

Abstract

An accurate pressure scale is a fundamental requirement to understand planetary interiors. Here, we establish a primary pressure scale extending to the multimegabar pressures of Earth's core, by combined measurement of the acoustic velocities and the density from a rhenium sample in a diamond anvil cell using inelastic x-ray scattering and x-ray diffraction. Our scale agrees well with previous primary scales and shock Hugoniots in each experimental pressure range and reveals that previous scales have overestimated laboratory pressures by at least 20% at 230 gigapascals. It suggests that the light element content in Earth's inner core (the density deficit relative to iron) is likely to be double what was previously estimated, or Earth's inner core temperature is much higher than expected, or some combination thereof.

Topics & Concepts

Inner coreDiamond anvil cellCore (optical fiber)Earth (classical element)Scale (ratio)RheniumOuter coreGeologyDiffractionMaterials sciencePhysicsMineralogyComputational physicsGeophysicsOpticsAstronomyMetallurgyQuantum mechanicsHigh-pressure geophysics and materialsGeological and Geochemical Analysisearthquake and tectonic studies
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